New thiazol-pyridazine derivatives as antimicrobial and antiviral candidates: Synthesis, and application

IF 5.8 2区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Journal of Saudi Chemical Society Pub Date : 2024-03-01 DOI:10.1016/j.jscs.2024.101830
Fuad A. Alatawi , Abdulmajeed F. Alrefaei , Alaa M. Alqahtani , Amerah Alsoliemy , Hanadi A. Katouah , Hana M. Abumelha , Fawaz A. Saad , Nashwa M. El-Metwaly
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Abstract

In this manuscript, we are motivated to investigate the reaction site-selectivity for the hydrazo thiazole derivatives (6a–c) with different types of active methylene groups such as malononitrile, and ethyl cyanoacetate. Based on their structural investigations and spectrum data, the results of these reactions have been established to be iminopyridazines (7a–c) and 6-oxopyridazine derivatives (8a–c). We tested the ability of the newly synthesized pyridazine derivatives to inhibit the microbes and COVID-19 proteins. Human coronavirus 229E (HCoV-229E) was used to investigate the antiviral efficacy of prepared compounds. Green monkey kidney (Vero-E6) cell lines were used to investigate MTT and cytopathic effect (CPE). The new 6-oxopyridazine derivatives (8a–c) revealed significant inhibitory efficacy and were capable of inhibiting the human coronavirus 229E. Moreover, the antimicrobial result showed that compounds iminopyridazine (7c) followed by iminopyridazine (7a) followed by iminopyridazine (7b) exhibited excellent antimicrobial properties toward all utilized strains, usually greater than that of common reference drugs, with MIC values ranging from 13 to 21 ppm, from 9 to 14 ppm, and from 8 to 19 ppm whereas, the remaining substances appeared to be promising effective. Structure-activity relationship (SAR) revealed that pyridazine scaffolds containing NH group, as well as substituted electron withdrawal group (Cl) in para-position for benzene ring attributed to thiazole moiety have the best activity. The current study successfully illustrated the possible application of heterocyclic derivatives with pyridazie nucleus including thiazole ring as the main compound in the development of dual antiviral (COVID-19) and antibacterial pharmaceuticals in the future.

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作为抗菌剂和抗病毒候选药物的新噻唑哒嗪衍生物:合成与应用
在本手稿中,我们研究了联氮噻唑衍生物(6a-c)与不同类型的活性亚甲基(如丙二腈和氰乙酸乙酯)的反应位点选择性。根据其结构研究和光谱数据,这些反应的结果被确定为亚氨基哒嗪(7a-c)和 6-氧代哒嗪衍生物(8a-c)。我们测试了新合成的哒嗪衍生物对微生物和 COVID-19 蛋白的抑制能力。人类冠状病毒 229E(HCoV-229E)被用来研究制备的化合物的抗病毒效果。绿猴肾(Vero-E6)细胞系被用来研究 MTT 和细胞病理效应(CPE)。结果表明,新的 6-氧哒嗪衍生物(8a-c)具有显著的抑制效果,能够抑制人类冠状病毒 229E。此外,抗菌结果表明,亚氨基哒嗪化合物(7c)、亚氨基哒嗪化合物(7a)和亚氨基哒嗪化合物(7b)对所有使用的菌株都具有极佳的抗菌性能,其 MIC 值分别为 13 至 21 ppm、9 至 14 ppm 和 8 至 19 ppm,而其余物质似乎效果不佳。结构-活性关系(SAR)显示,含有 NH 基团的哒嗪支架以及噻唑分子苯环对位上的取代退电子基团(Cl)具有最佳活性。目前的研究成功地说明了以包括噻唑环在内的哒嗪核为主要化合物的杂环衍生物在未来开发双重抗病毒(COVID-19)和抗菌药物中的可能应用。
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来源期刊
Journal of Saudi Chemical Society
Journal of Saudi Chemical Society CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
8.90
自引率
1.80%
发文量
120
审稿时长
38 days
期刊介绍: Journal of Saudi Chemical Society is an English language, peer-reviewed scholarly publication in the area of chemistry. Journal of Saudi Chemical Society publishes original papers, reviews and short reports on, but not limited to: •Inorganic chemistry •Physical chemistry •Organic chemistry •Analytical chemistry Journal of Saudi Chemical Society is the official publication of the Saudi Chemical Society and is published by King Saud University in collaboration with Elsevier and is edited by an international group of eminent researchers.
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